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, this position offers a unique opportunity. You will work with real robots, real sensors, and real physical interaction problems, contributing directly to the development of autonomous mining systems capable
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from synchrotron experiments on deforming metals. About Us You will join an international and highly multidisciplinary team of approximately 5 PhDs and postdocs, fostering a strong collaboration between
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combines hands-on nanofabrication, device design and characterization, process development, and strategic research expansion through external funding. The candidate is expected to contribute scientifically
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understanding of material science and electrical transport physics. Experience with electrical characterization of devices, ideally low-noise characterization of magnetometers. A strong drive to move
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also enjoy working in a team, be open, honest and conduct research responsibly. The ideal candidate should have: a strong background in chemical engineering thermodynamics, physical chemistry, water
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energy system. Qualified applicants must have: PhD degree in physics, astronomy, engineering, computer science or similar. Experience with finite element modeling, ideally Comsol Multiphysics. Experience
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-integrated monitoring and diagnostics from electrical signatures, physics-informed and probabilistic learning methods for robust adaptation across varying mission profiles, and experimental validation on state
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quantum networks, where one bit of information is encoded in the quantum state of a single photon. You will be part of a team of 10-12 people between senior staff, PostDocs and PhD/Master students